哈尔滨工业大学 模拟电子技术课件

[{"title":"（ 33 个子文件 4.64MB ） 哈尔滨工业大学 模拟电子技术课件","children":[{"title":"基础电子技术课件","children":[{"title":"32E4a0253共集－共基电路.ppt <span style='color:#111;'> 137.00KB </span>","children":null,"spread":false},{"title":"5E4a02213放大电路的组成原则.ppt <span style='color:#111;'> 189.00KB </span>","children":null,"spread":false},{"title":"24E4a02323共源放大电路的特点.ppt <span style='color:#111;'> 79.00KB </span>","children":null,"spread":false},{"title":"1E4a0211放大的基本概念.ppt <span style='color:#111;'> 303.00KB </span>","children":null,"spread":false},{"title":"8E4a02232放大电路的动态分析.ppt <span style='color:#111;'> 310.50KB </span>","children":null,"spread":false},{"title":"19E4a02311场效应管放大电路设置偏置电压的基本方法.ppt <span style='color:#111;'> 123.00KB </span>","children":null,"spread":false},{"title":"7E4a02231放大电路的静态分析.ppt <span style='color:#111;'> 422.00KB </span>","children":null,"spread":false},{"title":"10E4a02241晶体管的直流模型及Q点的估算.ppt <span style='color:#111;'> 149.50KB </span>","children":null,"spread":false},{"title":"21E4a02313分压式栅极偏置电路.ppt <span style='color:#111;'> 136.50KB </span>","children":null,"spread":false},{"title":"26E4a02332共漏放大电路的特点.ppt <span style='color:#111;'> 97.50KB </span>","children":null,"spread":false},{"title":"15E4a02263共集放大电路的特点.ppt <span style='color:#111;'> 69.00KB </span>","children":null,"spread":false},{"title":"27E4a0241双极型管放大电路三种接法的比较.ppt <span style='color:#111;'> 145.00KB </span>","children":null,"spread":false},{"title":"25E4a02331用等效电路法分析共漏放大电路的动态参数.ppt <span style='color:#111;'> 173.00KB </span>","children":null,"spread":false},{"title":"23E4a02322用等效电路法分析共源放大电路动态参数.ppt <span style='color:#111;'> 178.00KB </span>","children":null,"spread":false},{"title":"6E4a0222直流通路和交流通路.ppt <span style='color:#111;'> 303.00KB </span>","children":null,"spread":false},{"title":"20E4a02312场效应管自给偏压电路.ppt <span style='color:#111;'> 150.00KB </span>","children":null,"spread":false},{"title":"12E4a0225Q点稳定电路.ppt <span style='color:#111;'> 182.00KB </span>","children":null,"spread":false},{"title":"28E4a0242单极型管放大电路两种接法的比较.ppt <span style='color:#111;'> 102.50KB </span>","children":null,"spread":false},{"title":"22E4a02321场效应管的h参数等效模型.ppt <span style='color:#111;'> 89.00KB </span>","children":null,"spread":false},{"title":"30E4a0251共射－共基电路.ppt <span style='color:#111;'> 150.00KB </span>","children":null,"spread":false},{"title":"14E4a02262用等效电路法分析共集放大电路的动态参数.ppt <span style='color:#111;'> 338.50KB </span>","children":null,"spread":false},{"title":"18E4a02273共基放大电路的特点.ppt <span style='color:#111;'> 78.00KB </span>","children":null,"spread":false},{"title":"11E4a02242晶体管的h参数等效电路及动态参数的估算.ppt <span style='color:#111;'> 524.50KB </span>","children":null,"spread":false},{"title":"11E4a02243用等效电路法分析共射放大电路的动态参数.ppt <span style='color:#111;'> 376.50KB </span>","children":null,"spread":false},{"title":"2E4a0212放大电路的性能指标及测试方法.ppt <span style='color:#111;'> 1.23MB </span>","children":null,"spread":false},{"title":"31E4a0252共射－共集电路.ppt <span style='color:#111;'> 137.50KB </span>","children":null,"spread":false},{"title":"4E4a02212共射放大电路的放大原理.ppt <span style='color:#111;'> 126.00KB </span>","children":null,"spread":false},{"title":"17E4a02272用等效电路法分析共基放大电路的动态参数.ppt <span style='color:#111;'> 116.50KB </span>","children":null,"spread":false},{"title":"9E4a02233放大电路的非线性失真分析.ppt <span style='color:#111;'> 1.09MB </span>","children":null,"spread":false},{"title":"13E4a02261共集放大电路的Q点的分析.ppt <span style='color:#111;'> 89.00KB </span>","children":null,"spread":false},{"title":"3E4a02211放大电路的组成及元件的作用.ppt <span style='color:#111;'> 125.00KB </span>","children":null,"spread":false},{"title":"16E4a02271共基放大电路Q点的分析.ppt <span style='color:#111;'> 122.50KB </span>","children":null,"spread":false},{"title":"29E4a0243双极型管与单极型管电路的比较.ppt <span style='color:#111;'> 146.00KB </span>","children":null,"spread":false}],"spread":false}],"spread":true}]